JP2928313B2 - Thermal transfer recording medium - Google Patents
Thermal transfer recording mediumInfo
- Publication number
- JP2928313B2 JP2928313B2 JP4839390A JP4839390A JP2928313B2 JP 2928313 B2 JP2928313 B2 JP 2928313B2 JP 4839390 A JP4839390 A JP 4839390A JP 4839390 A JP4839390 A JP 4839390A JP 2928313 B2 JP2928313 B2 JP 2928313B2
- Authority
- JP
- Japan
- Prior art keywords
- thermal transfer
- ink
- hot
- recording medium
- transfer recording
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
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Landscapes
- Thermal Transfer Or Thermal Recording In General (AREA)
- Inks, Pencil-Leads, Or Crayons (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明は、プリンタ、ファクシミリ等の熱転写記録装
置に用いられる熱転写記録媒体に関し、更に詳しくは、
被転写紙の表面の影響を受けることなく高画質な転写記
録を行なえるようにした熱転写記録媒体に関する。DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention relates to a thermal transfer recording medium used in a thermal transfer recording apparatus such as a printer, a facsimile, etc.
The present invention relates to a thermal transfer recording medium capable of performing high-quality transfer recording without being affected by the surface of a receiving paper.
〔従来の技術〕 熱転写記録方式は、シート状の基材上に少なくとも一
層の熱溶融性インクを塗布してなる熱転写記録媒体を用
い、この熱転写記録媒体をその熱溶融性インク層が被転
写紙に接するように重ね合わせ、熱転写記録媒体の基材
側より加熱ヘッドによりインク層を加熱溶融して被転写
紙上に転写像を得る記録方式である。この方法によれ
ば、使用する装置が低騒音で操作性、保守性に優れ、か
つ普通紙を被転写紙として使用可能であるため、近年広
く用いられている。[Prior Art] The thermal transfer recording method uses a thermal transfer recording medium obtained by applying at least one layer of a thermal fusible ink on a sheet-like base material, and the thermal fusible ink layer is coated on a transfer paper. This is a recording method in which an ink layer is heated and melted by a heating head from the substrate side of a thermal transfer recording medium to obtain a transfer image on a transfer paper, in such a manner as to be in contact with the substrate. According to this method, the apparatus to be used has been widely used in recent years because the apparatus to be used is low noise, has excellent operability and maintainability, and can use plain paper as a transfer paper.
しかしながら、上記のような従来の熱溶融性インク
は、そのバインダー材がワックスを主成分としたもので
あって、該ワックスが軟化することによって熱溶融した
インクを被転写紙の表面に転写させるため、被転写紙の
表面の影響を受けやすいという問題があった。すなわ
ち、上記ワックスは熱による粘度低下が大きく、且つ溶
融粘度が非常に低いため、被転写紙の表面に凹凸がある
と、溶融時にインクの凹部への接触面積が小さく、例え
ば被転写紙表面のベック平滑度が30〜40秒以下になる
と、インクの乗りが均一でなくなり、画質劣化の要因と
なっていた。However, in the conventional hot-melt ink as described above, the binder material is mainly composed of wax, and the hot-melt ink is transferred to the surface of the receiving paper by softening of the wax. However, there is a problem that the surface of the receiving paper is easily affected. That is, since the wax has a large decrease in viscosity due to heat and a very low melt viscosity, if there is unevenness on the surface of the receiving paper, the contact area of the ink to the concave portion at the time of melting is small. When the Bekk smoothness is less than 30 to 40 seconds, the ink is not evenly applied, which causes deterioration of image quality.
そこで、インクの厚みを増して一点に多くのインクが
転写するようにすれば、インクが被転写紙の表面を確実
に覆うので、インクの転写不良による記録濃度の低下や
かすれの問題はなくなる。しかし、その反面、にじみが
大きくなって1ドットのサイズが大きくなり、解像度が
悪くなって画質劣化の原因となるものであった。If the thickness of the ink is increased so that a large amount of ink is transferred to one point, the ink surely covers the surface of the paper to be transferred, so that there is no problem of a decrease in recording density or blur due to poor transfer of the ink. However, on the other hand, the bleeding becomes large, the size of one dot becomes large, and the resolution becomes poor, which causes deterioration in image quality.
また、熱溶融性インクのバインダー材として樹脂を使
用するものとしては、特開昭54−87234号、同54−16304
4号、同56−98269号、同62−130887号等が知られている
が、性能面で十分とはいい難い。Further, as those using a resin as a binder material of the hot-melt ink, JP-A-54-87234 and JP-A-54-16304
No. 4, No. 56-98269, No. 62-130887, etc. are known, but it is hard to say that performance is sufficient.
従って本発明の目的は、被転写紙の表面の影響を受け
ることが少なく、高画質の転写ができるようにした熱転
写記録媒体を提供することにある。また、本発明の他の
目的は解像度の良好な熱転写記録媒体を提供することあ
る。SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a thermal transfer recording medium which is less affected by the surface of a sheet to be transferred and can perform high-quality transfer. Another object of the present invention is to provide a thermal transfer recording medium having good resolution.
本発明者らは鋭意研究の結果、熱溶融性インクのバイ
ンダー材を従来のワックス類を主成分としたものからビ
スフェノール骨格を有し、かつ分子末端に水酸基を有す
るポリエーテル樹脂に変更することによって前記の目的
が達成し得ることを確認し、更には、離型層を基材と前
記ポリエーテル樹脂をバインダー材とした熱溶融性イン
ク層の間に設けることにより、より高感度に高画質な転
写画像が得られることを見出し、本発明を完成するに至
った。The present inventors have conducted intensive studies, and have changed the binder material of the hot-melt ink from a conventional wax-based binder to a polyether resin having a bisphenol skeleton and a hydroxyl group at a molecular terminal. Confirming that the above object can be achieved, furthermore, by providing a release layer between the substrate and the heat-meltable ink layer using the polyether resin as a binder material, higher sensitivity and high image quality It has been found that a transfer image can be obtained, and the present invention has been completed.
すなわち本発明は、基材上に熱溶融性インクを塗布し
てなる熱転写記録媒体において、熱溶融性インクが、ビ
スフェノール骨格を有し、かつ分子末端に水酸基を有す
るポリエーテル樹脂と着色剤を主成分として含有するこ
とを特徴とする熱転写記録媒体を提供するものである。That is, the present invention relates to a thermal transfer recording medium obtained by applying a hot-melt ink on a substrate, wherein the hot-melt ink mainly comprises a polyether resin having a bisphenol skeleton and having a hydroxyl group at a molecular terminal and a coloring agent. It is intended to provide a thermal transfer recording medium characterized by containing as a component.
従来、熱溶融性インクのバインダー材として用いられ
ていたワックス類は、パラフィンワックス、カルナバワ
ックス、モンタンワックス、蜜ロウ、木ロウ、キャンデ
リラワックスや低分子量ポリエチレン、α−オレフィン
オリゴマー及びこれらの変性物であり、必要に応じて更
にスピンドル油等の鉱物油やアマニ油、桐油等の植物
油、ジオクチルフタレート、ジブチルフタレート等の可
塑剤、オレイン酸、ステアリン酸等の高級脂肪酸やその
金属塩、アミドその他の誘導体を染顔料等と共に混合分
散し、薄層のプラスチックフィルムやコンデンサー紙上
に塗布することによって、熱転写記録媒体とされてい
た。Conventionally, waxes used as binder materials for hot-melt inks include paraffin wax, carnauba wax, montan wax, beeswax, wood wax, candelilla wax, low molecular weight polyethylene, α-olefin oligomers and modified products thereof. If necessary, mineral oils such as spindle oil and linseed oil, vegetable oils such as tung oil, plasticizers such as dioctyl phthalate and dibutyl phthalate, higher fatty acids such as oleic acid and stearic acid, metal salts thereof, amide and other Derivatives are mixed and dispersed together with dyes and pigments and applied to a thin plastic film or condenser paper to form a thermal transfer recording medium.
この様な従来のバインダー材たるワックス類は、結晶
性であるため約50℃から約150℃程度の温度領域に比較
的明瞭な融点を有し、融点以上に加熱すると急激に固相
から液相へと変化する。そして融点より30℃程度高い温
度で粘度が約10-2乃至10poiseの低粘度液体となる。Such conventional waxes as binder materials have a relatively clear melting point in a temperature range of about 50 ° C. to about 150 ° C. because of their crystalline nature, and when heated above the melting point, the solid phase rapidly changes from a solid phase to a liquid phase. Changes to At a temperature about 30 ° C. higher than the melting point, the liquid becomes a low-viscosity liquid having a viscosity of about 10 −2 to 10 poise.
これに対して樹脂類の場合は、本質的に融点を有しな
いものが多く、ガラス転移点(Tg)を境にして徐々に固
相から液相へと変化する。この間の粘度変化は、Tgより
約50℃高い温度でもせいぜい103〜155poise程度までし
か通常低下しない。熱転写記録の場合、その転写、定着
感度は基本的にはバインダー材の溶融粘度や溶融粘弾性
によって支配されるため、樹脂類を熱溶融性インクのバ
イダー材に用いることは、感度的に明らかに不利であ
る。しかしながら本発明者らは特定のポリエーテル樹脂
系バインダー材を用いると、感度を犠牲にすることなく
解像度が高く、更には被転写紙の表面の影響を受けるこ
となく高画質な転写記録が行なえることを見出した。以
下に本発明の熱転写記録媒体の詳細を説明する。On the other hand, many resins have essentially no melting point, and gradually change from a solid phase to a liquid phase at the glass transition point (Tg). The change in viscosity during this period usually decreases to at most about 10 3 to 15 5 poise even at a temperature about 50 ° C. higher than Tg. In the case of thermal transfer recording, the transfer and fixing sensitivity is basically governed by the melt viscosity and melt viscoelasticity of the binder material, so using resins as binder materials for hot-melt inks is clearly sensitive. Disadvantageous. However, when the present inventors use a specific polyether resin-based binder material, high resolution can be performed without sacrificing sensitivity, and high-quality transfer recording can be performed without being affected by the surface of a receiving paper. I found that. Hereinafter, the details of the thermal transfer recording medium of the present invention will be described.
本発明の熱転写記録媒体の基材としては、コンデンサ
紙、グラシン紙等の紙類、ポリエステル、ポリイミド、
ポリカーボネート、ポリアミド、ポリエチレン、ポリプ
ロピレン等のプラスチック類の薄膜シート、フィルム類
が用いられる。基材の厚みとしては約2〜20μmの範囲
が好ましい。また、熱ヘッド等を用いて記録を行なう場
合には基材の熱ヘッドと接する側に耐熱性、走行性等を
改善するため、シリコーン系、フッ素系の化合物、樹脂
層や架橋ポリマー層、金属層等を設けてもよい。As the base material of the thermal transfer recording medium of the present invention, condenser paper, papers such as glassine paper, polyester, polyimide,
Thin film sheets and films of plastics such as polycarbonate, polyamide, polyethylene and polypropylene are used. The thickness of the substrate is preferably in the range of about 2 to 20 μm. When recording is performed using a thermal head or the like, a silicon-based or fluorine-based compound, a resin layer or a crosslinked polymer layer, a metal A layer or the like may be provided.
本発明の熱転写記録媒体の必須成分であるビスフェノ
ール骨格を有し、かつ分子末端に水酸基を有するポリエ
ーテル樹脂は、一般にゲルパーミエーションクロマトグ
ラフィー(GPC)法で測定したポリスチレン換算の数平
均分子量が約20000以下、示差熱天秤(DSC)法で測定し
たガラス転移点(Tg)が約40℃以上であり、より好まし
くは数平均分子量が約10000以下、Tgが約55℃から90℃
の範囲にあるものを使用する。Tgが55℃未満、特に40℃
未満の場合は熱溶融性インクのブロッキングが起こりや
すく、保存時や使用時の安定性に欠けることもある。ま
た、Tgが90℃を越える場合は熱安定性は良好であるが、
感度が低下するため用途が限定されるおそれがある。The polyether resin having a bisphenol skeleton, which is an essential component of the thermal transfer recording medium of the present invention, and having a hydroxyl group at a molecular terminal generally has a number average molecular weight of about polystyrene measured by gel permeation chromatography (GPC) of about The glass transition point (Tg) measured by a differential thermal balance (DSC) method is about 40 ° C. or more, more preferably the number average molecular weight is about 10,000 or less, and the Tg is about 55 ° C. to 90 ° C.
Use the one in the range. Tg less than 55 ℃, especially 40 ℃
If it is less than 3, the heat-fusible ink tends to be blocked, and may lack stability during storage or use. When Tg exceeds 90 ° C, the thermal stability is good,
The use may be limited because the sensitivity is reduced.
Tgが前記範囲内であってもポリエーテル樹脂の分子量
が高い場合には感度が低下することが実験的に認められ
た。これは分子鎖のからみあい等に基づく分子間の凝集
力に起因するものと推測され、数平均分子量が約20000
以下、特に10000以下の場合に良好な転写、定着性が得
られた。更には被転写紙の表面性の影響を受けないこと
も見出した。重量平均分子量の設定は、熱転写記録媒体
の用途によって変わりうる。従来のワックス系インクと
同様に2値的転写画像を得たいときには重量平均分子量
も約20000以下、より好ましくは約10000以下とし、分子
量分布を狭くすることによって、樹脂の軟化特性をより
鋭敏にすることが望ましい。一方、濃度諧調性や多値転
写画像を得たり、また多数回繰り返し使用を行いたい場
合にはゆるやかな軟化特性を示す樹脂を印加エネルギー
に応じて溶融転写することが望ましく、そのためには重
量平均分子量を必ずしも小さくする必要はなく、約2000
0以上に設定してもよい。もちろんこの場合でも2値転
写画像も良好に得ることができる。更にまた、分子量分
布の形状は必ずしも単一分子量ピークを有する形状であ
る必要はなく、複数の分子量ピークを有する分布形状で
あってもよいし、架橋、分岐ポリマー成分を併用しても
よい。但し重量平均分子量を10000以上、特に40000以上
に設定した場合は、感度的には不利である。It has been experimentally confirmed that the sensitivity decreases when the molecular weight of the polyether resin is high even when the Tg is within the above range. This is presumed to be due to cohesion between molecules based on entanglement of molecular chains, etc., and the number average molecular weight is about 20,000
Below, good transfer and fixing properties were obtained especially when the value was 10,000 or less. Furthermore, they also found that they were not affected by the surface properties of the receiving paper. The setting of the weight average molecular weight can vary depending on the use of the thermal transfer recording medium. When a binary transfer image is desired to be obtained in the same manner as a conventional wax-based ink, the weight-average molecular weight is about 20,000 or less, more preferably about 10,000 or less, and by narrowing the molecular weight distribution, the softening property of the resin becomes more sensitive. It is desirable. On the other hand, if it is desired to obtain a density gradation property or a multi-valued transferred image, or to use repeatedly many times, it is desirable to melt-transfer a resin exhibiting a gentle softening characteristic in accordance with the applied energy. It is not always necessary to reduce the molecular weight, about 2000
It may be set to 0 or more. Of course, even in this case, a binary transfer image can be obtained well. Furthermore, the shape of the molecular weight distribution does not necessarily need to be a shape having a single molecular weight peak, but may be a distribution shape having a plurality of molecular weight peaks, or a crosslinked or branched polymer component may be used in combination. However, when the weight average molecular weight is set to 10,000 or more, particularly 40,000 or more, it is disadvantageous in sensitivity.
本発明に用いる、ビスフェノール骨格を有し、かつ分
子末端に水酸基を有するポリエーテル樹脂としては、下
記の式 (式中、R1,R2は水素原子、アルキル基又はフェニル基
である。R3,R4,R5,R6は水素原子、アルキル基又はハロ
ゲン基である。) で示されるビスフェノール化合物及びそのプロピレンオ
キサイド付加物、エチレンオキサイド付加物等のジオー
ル類と分子内にエポキシ基を二個有する脂肪族エポキシ
化合物、脂環族エポキシ化合物、芳香族エポキシ化合物
との付加重合で得られるポリエーテル樹脂で、分子末端
にエポキシ基が残留しないように反応させたポリエーテ
ル樹脂や、ビスフェノール系エポキシ樹脂と分子内に水
酸基を二個、水酸基とアミノ基、或いは水酸基とカルボ
ニル基を有する化合物との付加重合で得られるポリエー
テル樹脂で、分子末端にエポキシ基が残留しないように
反応させたポリエーテル樹脂等が用いられる。この場
合、更に、分子内にエポキシ基を三個以上有するエポキ
シ化合物を用いて、分岐もしくは架橋ポリエーテルとし
てもよい。もちろん本発明に係わるポリエーテル樹脂は
これらの製造法に限定されるものではない。The polyether resin having a bisphenol skeleton and having a hydroxyl group at a molecular terminal used in the present invention has the following formula: (In the formula, R 1 and R 2 are a hydrogen atom, an alkyl group or a phenyl group. R 3 , R 4 , R 5 and R 6 are a hydrogen atom, an alkyl group or a halogen group.) In the addition polymerization of bisphenol compounds and their propylene oxide adducts, diols such as ethylene oxide adducts, and aliphatic epoxy compounds having two epoxy groups in the molecule, alicyclic epoxy compounds, and aromatic epoxy compounds The resulting polyether resin has two hydroxyl groups, a hydroxyl group and an amino group, or a hydroxyl group and a carbonyl group in a molecule with a polyether resin or a bisphenol-based epoxy resin reacted so that no epoxy group remains at the molecular end. A polyether resin obtained by addition polymerization with a compound, which is reacted so that no epoxy group remains at the molecular terminal, or the like is used. In this case, a branched or crosslinked polyether may be further obtained by using an epoxy compound having three or more epoxy groups in the molecule. Of course, the polyether resin according to the present invention is not limited to these production methods.
本発明のバインダー材は、前記一種以上のポリエーテ
ル樹脂のみから構成しても、十分にその狙いを達成でき
るが、更に必要に応じて、他のポリマーや添加剤を添加
混合してもよい。The purpose of the binder material of the present invention can be sufficiently achieved even if the binder material is composed of only one or more of the above-described polyether resins. However, if necessary, other polymers and additives may be added and mixed.
例えば、スチレン、ビニルトルエン、α−メチルスチ
レン、2−メチルスチレン、クロルスチレン、ビニル安
息香酸、ビニルベンゼンスルホン酸ソーダ、アミノスチ
レン等のスチレン及びその誘導体、置換体の単独重合体
や共重合体、メチルメタクリレート、エチルメタクリレ
ート、ブチルメタクリレート、ヒドロキシエチルメタク
リレート等のメタクリル酸エステル及びメタクリル酸、
メチルアクリレート、エチルアクリレート、ブチルアク
リレート、2−エチルヘキシルアクリレート等のアクリ
ル酸エステル及びアクリル酸、ブタジエン、イソプレン
等のジエン類、アクリロニトリル、ビニルエーテル類、
マレイン酸及びマレイン酸エステル類、無水マレイン
酸、ケイ皮酸、塩化ビニル等のビニル系単量体の単独あ
るいは他の単量体との共重合体を用いることができる。
勿論、前記ビニル系樹脂の場合もジビニルベンゼン等の
多官能単量体を用いて架橋ポリマーとして使用してもよ
い。更にまた、ポリカーボネート、ポリアミド、ポリエ
ステル、ポリウレタン樹脂、シリコーン系樹脂、フッ素
系樹脂、フェノール樹脂、テルペン樹脂、石油樹脂、水
添石油樹脂、アルキド樹脂、ケトン樹脂、セルロース誘
導体等を用いてもよい。これらのポリマーもしくはオリ
ゴマーを共重合体の形で使用する場合、その共重合体は
ランダム共重合体の他、要求用途に合わせて、交互共重
合体、グラフト共重合体、ブロック共重合体、相互貫入
型共重合体等の共重合様式を適宜選択して用いることが
できる。また、二種以上のポリマー、オリゴマーを混合
して用いる場合には、溶融混合、溶液混合、エマルジョ
ン混合等の機械的混合の他、ポリマー、オリゴマー成分
重合時に共存重合、多段重合法等で混合してもよい。For example, styrene and vinyl toluene, α-methylstyrene, 2-methylstyrene, chlorostyrene, vinylbenzoic acid, sodium vinylbenzenesulfonate, styrene such as aminostyrene and derivatives thereof, homopolymers and copolymers of substituted products, Methyl methacrylate, ethyl methacrylate, butyl methacrylate, methacrylic acid esters such as hydroxyethyl methacrylate and methacrylic acid,
Acrylic esters such as methyl acrylate, ethyl acrylate, butyl acrylate and 2-ethylhexyl acrylate, and acrylic acids, butenes such as butadiene and isoprene, acrylonitrile, vinyl ethers,
Maleic acid and maleic acid esters, maleic anhydride, cinnamic acid, vinyl chloride and other vinyl monomers alone or copolymers with other monomers can be used.
Needless to say, the vinyl resin may be used as a crosslinked polymer using a polyfunctional monomer such as divinylbenzene. Furthermore, polycarbonate, polyamide, polyester, polyurethane resin, silicone resin, fluorine resin, phenol resin, terpene resin, petroleum resin, hydrogenated petroleum resin, alkyd resin, ketone resin, cellulose derivative and the like may be used. When these polymers or oligomers are used in the form of a copolymer, the copolymer may be a random copolymer, an alternating copolymer, a graft copolymer, a block copolymer, A copolymerization mode such as a penetration copolymer can be appropriately selected and used. When two or more kinds of polymers and oligomers are mixed and used, in addition to mechanical mixing such as melt mixing, solution mixing, and emulsion mixing, polymer and oligomer components are mixed by coexistence polymerization, multistage polymerization, or the like. You may.
更に必要に応じて、従来の熱溶融性インクで用いられ
たようなワックス類、オイル類、液体可塑剤類を添加混
合してもよい。但し、全バインダー材成分中、前記ポリ
エーテル樹脂成分が体積濃度で一般的には30%以上、好
ましくは70%以上占めることが、画質上好ましい。Further, if necessary, waxes, oils, and liquid plasticizers as used in conventional hot-melt inks may be added and mixed. However, it is preferable in terms of image quality that the polyether resin component occupies generally 30% or more, preferably 70% or more in volume concentration of all binder material components.
着色剤としてはカーボンブラック、オイルブラック、
黒鉛等の黒色系染顔料;C.I.Pigment Yellow1,同3,同74,
同97,同98等のアセト酢酸アリールアミド系モノアゾ黄
顔料(ファストイエロー);C.I.Pigment Yellow12,同1
3,同14等のアセト酢酸アリールアミド系ビスアゾ黄顔
料;C.I.Solvent Yellow19,同77,同79、C.I.Disperse Ye
llow 164等の黄染料:C.I.Pigment Red 48,同49:1,同53:
1,同57:1,同81,同122,同5等の赤もしくは紅顔料;C.I.S
olvent Red 52,同58,同8等の赤系染料;C.I.Pigment Bl
ue15:3等の銅フタロシアニン及びその誘導体、変性体等
の青系染顔料などが使用でき、また有色もしくは無色の
昇華性染料等、従来印刷インク、その他の着色用途で周
知の染顔料が使用できる。Colorants include carbon black, oil black,
Black dyes such as graphite; CI Pigment Yellow 1, 3, and 74,
97, 98 etc. acetoacetate arylamide monoazo yellow pigments (fast yellow); CI Pigment Yellow 12, 1
3, acetoacetate arylamide-based bisazo yellow pigment such as 14; CISolvent Yellow 19, 77, 79, CI Disperse Ye
yellow dyes such as llow 164: CI Pigment Red 48, 49: 1, 53:
1, 57: 1, 81, 122, 5 etc. red or red pigment; CIS
olvent Red 52, 58, 8 etc .; red dyes; CI Pigment Bl
Blue dyes and pigments such as copper phthalocyanine and derivatives thereof such as ue15: 3 can be used, and dyes and pigments known in conventional printing inks and other coloring applications such as colored or colorless sublimable dyes can be used. .
これら染顔料は単独でも二種以上を混合して用いても
よい。勿論、体質顔料や白色顔料と混合し、色調を調整
してもよい。更にまた、バインダー材成分に対する分散
性を改善するために着色剤表面を界面活性剤、シランカ
ップリング剤等のカップリング剤、高分子材料で処理し
たり、高分子系染料や高分子グラフト顔料を用いてもよ
い。These dyes and pigments may be used alone or in combination of two or more. Of course, the color tone may be adjusted by mixing with an extender or a white pigment. Furthermore, the surface of the colorant is treated with a surfactant, a coupling agent such as a silane coupling agent, a polymer material, or a polymer dye or a polymer graft pigment to improve the dispersibility of the binder component. May be used.
本発明の熱転写記録媒体は、前記ポリエーテル樹脂と
着色剤、更に必要に応じて前述の各種添加剤を今多した
熱溶融性インクを基材上に設置することで形成される。
更に、基材と熱溶融性インク層との間に離型層を設ける
と、より高感度な熱転写記録媒体が得られる。The thermal transfer recording medium of the present invention is formed by disposing a heat-meltable ink, which is rich in the polyether resin, the colorant and, if necessary, the various additives described above, on a substrate.
Further, when a release layer is provided between the base material and the heat-meltable ink layer, a thermal transfer recording medium with higher sensitivity can be obtained.
離型層には、シリコーンレジン類、高級脂肪酸類、高
級脂肪酸金属塩類、脂肪酸誘導体類、高級アルコール
類、あるいはワックス類等が使用される。特に好ましく
はワックス類が用いられ、例えばパラフィンワックス、
モンタンワックス、カルナバワックス、蜜ロウ、木ロ
ウ、キャンデリラワックスや低分子量ポリエチレン、α
−オレフィンオリゴマー及びこれらの変性物等の熱溶融
性インクのバインダー材として従来から用いられていた
公知のワックス類が挙げられる。前記のワックス類は単
独でも二種以上を混合して用いてもよい。また、ワック
ス類以外に、塗膜強度を向上させるために、エチレン−
アクリル酸共重合体、エチレン−酢酸ビニル共重合体、
ポリエチレン、石油樹脂等の樹脂類を添加してもよい。For the release layer, silicone resins, higher fatty acids, higher fatty acid metal salts, fatty acid derivatives, higher alcohols, waxes and the like are used. Particularly preferably, waxes are used, for example, paraffin wax,
Montan wax, carnauba wax, beeswax, wood wax, candelilla wax and low molecular weight polyethylene, α
-Known waxes conventionally used as binder materials for hot-melt inks such as olefin oligomers and modified products thereof. The above waxes may be used alone or in combination of two or more. In addition to waxes, ethylene-
Acrylic acid copolymer, ethylene-vinyl acetate copolymer,
Resins such as polyethylene and petroleum resin may be added.
本発明の熱溶融性インクの製造は、バインダー材を溶
解もしくは安定に分散し得る溶媒もしくは分散媒中で溶
液もしくは分散エマルジョンとし、ボールミル、サンド
ミル、アトライター、バスケットミル、三本ロール等の
混合分散機により調製することができる。また、溶媒等
を特に用いることなく、加熱型三本ローラ、加熱型ニー
ダー、加熱型サンドミル、加熱型アトライター等で溶融
混合してもよい。更にまた、着色剤、添加剤等の存在下
で、主バインダー材であるポリエーテル樹脂を合成によ
り調製し、熱溶融性インクとしてもよい。The production of the hot-melt ink of the present invention is performed by dissolving or stably dispersing a binder material in a solvent or a dispersion medium, forming a solution or a dispersion emulsion, and mixing and dispersing the mixture in a ball mill, a sand mill, an attritor, a basket mill, a three-roll, or the like. It can be prepared by a machine. Further, the solvent may be melt-mixed using a heated three-roller, a heated kneader, a heated sand mill, a heated attritor, or the like without particular use of a solvent. Furthermore, a polyether resin as a main binder material may be prepared by synthesis in the presence of a coloring agent, an additive, and the like, to obtain a hot-melt ink.
このようにして調製された熱溶融性インクは基材上に
グラビアコーター、ワイーバー等を用いて溶液もしくは
溶融コート法で塗布、印刷される。The hot-melt ink thus prepared is applied and printed on a substrate by a solution or melt coating method using a gravure coater, a wire bar, or the like.
また、熱溶融性インクをスプレードライ法、粉砕法等
で粉砕化し、その後、静電コート法等によって基材上に
粉体コートしてもよい。この場合、粉体コート後更に必
要に応じて、加熱、加圧、溶媒処理等を用い、熱溶融性
インクの基材上に定着して用いてもよい。Alternatively, the heat-meltable ink may be pulverized by a spray drying method, a pulverizing method, or the like, and then powder-coated on the substrate by an electrostatic coating method or the like. In this case, after the powder coating, if necessary, heating, pressurization, solvent treatment, or the like may be used to fix and use the hot-melt ink on the base material.
以下実施例にて本発明を説明するが、本発明はこれら
の実施例に限定されるものではない。Hereinafter, the present invention will be described with reference to examples, but the present invention is not limited to these examples.
なお、以下の例中、部は特に指定のない限り重量部を
表す。In the following examples, parts are by weight unless otherwise specified.
実施例1 <ポリエーテル樹脂Aの合成> ビスフェノール系エポキシ樹脂「エピクロン」(大日
本インキ化学製)370gとビスフェノールA 350gを1の
セパラブルフラスコに入れ、130℃にて均一に溶融混
合、触媒を添加し、分子内に水酸基を有するポリエーテ
ル樹脂Aを得た。Example 1 <Synthesis of polyether resin A> 370 g of bisphenol-based epoxy resin “Epiclon” (manufactured by Dainippon Ink and Chemicals) and 350 g of bisphenol A were placed in a separable flask, uniformly mixed and melted at 130 ° C. This was added to obtain a polyether resin A having a hydroxyl group in the molecule.
<熱溶融性インクの調製> 下記組成を有する熱溶融性インク成分をボールミル中
常温で24時間混練を行い、熱溶融性インクを調製した。<Preparation of hot melt ink> A hot melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リイミドフィルム上にワイヤーバーにより塗布し、60℃
で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyimide film with a wire bar,
To provide a hot-melt ink layer having a thickness of 2.5 μm.
実施例2 下記組成を有する熱溶融性インクをボールミル中常温
で24時間混練を行い、熱溶融性インクを調製した。Example 2 A hot melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リイミドフィルム上にワイヤーバーにより塗布し、60℃
で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyimide film with a wire bar,
To provide a hot-melt ink layer having a thickness of 2.5 μm.
実施例3 下記組成を有する熱溶融性インクをボールミル中常温
で24時間混練を行い、熱溶融性インクを調製した。Example 3 A hot-melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot-melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リエステルフィルム上にワイヤーバーにより塗布し、60
℃で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyester film with a wire bar,
It dried at ℃ and provided the 2.5-micrometer-thick hot-melt ink layer.
実施例4 下記組成を有する熱溶融性インクをボールミル中常温
で24時間混練を行い、熱溶融性インクを調製した。Example 4 A hot-melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot-melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リエステルフィルム上にワイヤーバーにより塗布し、60
℃で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyester film with a wire bar,
It dried at ℃ and provided the 2.5-micrometer-thick hot-melt ink layer.
実施例5 厚さ6μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Example 5 The following layers were formed on a 6 μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 マイクロクリスタリンワックス(融点=75℃)を100
℃で恒温槽中でワイヤーバーにより厚さ1.5μmに塗布
して、離型層を設けた。Release layer 100 microcrystalline wax (melting point = 75 ° C)
It was applied to a thickness of 1.5 μm with a wire bar in a thermostat at a temperature of 0 ° C. to form a release layer.
熱溶融性インク層 実施例1の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Heat-meltable ink layer The heat-meltable ink liquid of Example 1 was applied on the release layer with a wire bar so that the heat-meltable ink layer had a thickness of 3 µm, to obtain a thermal transfer ink sheet.
実施例6 厚さ4μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Example 6 The following layers were formed on a polyester film having a thickness of 4 μm to form an ink sheet as a thermal transfer recording medium.
離型層 カルナバワックス(融点=85℃)を100℃恒温槽中で
ワイヤーバーにより厚さ1.5μmに塗布して、離型層を
設けた。Release layer Carnauba wax (melting point = 85 ° C.) was applied to a thickness of 1.5 μm with a wire bar in a thermostat at 100 ° C. to provide a release layer.
熱溶融性インク層 実施例2の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Heat-meltable ink layer The heat-meltable ink liquid of Example 2 was applied onto the release layer with a wire bar so that the heat-meltable ink layer had a thickness of 3 μm to obtain a thermal transfer ink sheet.
実施例7 厚さ4μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Example 7 The following layers were formed on a 4 μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 酸化パラフィンワックス(融点=85℃)を100℃恒温
槽中でワイヤーバーにより厚さ1.5μmに塗布して、離
型層を設けた。Release Layer Oxidized paraffin wax (melting point = 85 ° C.) was applied with a wire bar to a thickness of 1.5 μm in a thermostat at 100 ° C. to form a release layer.
熱溶融性インク層 実施例3の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Heat-meltable ink layer The heat-meltable ink liquid of Example 3 was applied onto the release layer with a wire bar so that the heat-meltable ink layer had a thickness of 3 µm, to obtain a thermal transfer ink sheet.
実施例8 厚さ4μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Example 8 The following layers were formed on a 4 μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 パラフィンワックス(融点=70℃)を100℃恒温層中
でワイヤーバーにより厚さ1.5μmに塗布して、離型層
を設けた。Release Layer Paraffin wax (melting point = 70 ° C.) was applied to a thickness of 1.5 μm with a wire bar in a constant temperature layer at 100 ° C. to provide a release layer.
熱溶融性インク層 実施例4の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Heat-meltable ink layer The heat-meltable ink liquid of Example 4 was applied onto the release layer with a wire bar so that the heat-meltable ink layer had a thickness of 3 µm, to obtain a thermal transfer ink sheet.
比較例1 下記組成を有する熱溶融性インクを100℃で溶融混合
した後、三本ロールで混練を行い、熱溶融性インクを調
製した。Comparative Example 1 A hot-melt ink having the following composition was melt-mixed at 100 ° C. and kneaded with a three-roll mill to prepare a hot-melt ink.
・パラフィンワックス(融点=72℃) 50部 ・カルナバワックス 20部 ・エチレン−酢酸ビニル共重合体 10部 ・カーボンブラック 20部 上記で得られた熱溶融性インクを、110℃に加熱した
ホットプレート上にのせた厚さ4μmのポリエステルフ
ィルム上に熱溶融性インク層の厚さが3μmとなるよう
にワイヤーバーにて塗布して、熱転写インクシートとし
た。・ 50 parts of paraffin wax (melting point = 72 ° C.) ・ 20 parts of carnauba wax ・ 10 parts of ethylene-vinyl acetate copolymer ・ 20 parts of carbon black The hot-melt ink obtained above was heated on a hot plate heated to 110 ° C. It was applied on a 4 μm thick polyester film with a wire bar so that the thickness of the hot-melt ink layer was 3 μm to obtain a thermal transfer ink sheet.
比較例2 下記組成を有する熱溶融性インクをボールミル中常温
で24時間混練を行い、熱溶融性インクを調製した。Comparative Example 2 A hot-melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot-melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リイミドフィルム上にワイヤーバーにより塗布し、60℃
で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyimide film with a wire bar,
To provide a hot-melt ink layer having a thickness of 2.5 μm.
比較例3 下記組成を有する熱溶融性インクをボールミル中常温
で24時間混練を行い、熱溶融性インクを調製した。Comparative Example 3 A hot-melt ink having the following composition was kneaded in a ball mill at room temperature for 24 hours to prepare a hot-melt ink.
上記で得られた熱溶融性インク液を、厚さ4μmのポ
リエステルフィルム上にワイヤーバーにより塗布し、60
℃で乾燥させ、厚さ2.5μmの熱溶融性インク層を設け
た。 The hot-melt ink liquid obtained above was applied on a 4 μm-thick polyester film with a wire bar,
It dried at ℃ and provided the 2.5-micrometer-thick hot-melt ink layer.
比較例4 厚さ6μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Comparative Example 4 The following layers were formed on a 6-μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 マイクロクリスタリンワックス(融点=75℃)を100
℃恒温槽中でワイヤーバーにより厚さ1.5μmに塗布し
て、離型層を設けた。Release layer 100 microcrystalline wax (melting point = 75 ° C)
The coating was applied to a thickness of 1.5 μm with a wire bar in a constant temperature bath at 0 ° C. to provide a release layer.
熱溶融性インク層 ・パラフィンワックス(融点=72℃) 10部 ・カルナバワックス 2部 ・エチレン−酢酸ビニル共重合体 3部 ・カーボンブラック 5部 ・トルエン 40部 ・メチルエチルケトン 40部 上記組成物をボールミルにて24時間、40℃で混練して
得られた熱溶融性インク液を、上記離型層上に熱溶融性
インク層の厚さが3μmとなるようにワイヤーバーにて
塗布して、熱転写インクシートとした。Hot-melt ink layer ・ Paraffin wax (melting point = 72 ° C) 10 parts ・ Carnauba wax 2 parts ・ Ethylene-vinyl acetate copolymer 3 parts ・ Carbon black 5 parts ・ Toluene 40 parts ・ Methyl ethyl ketone 40 parts The above composition is used in a ball mill. The heat-meltable ink liquid obtained by kneading at 40 ° C. for 24 hours is coated on the release layer with a wire bar so that the thickness of the heat-meltable ink layer becomes 3 μm, Sheet.
比較例5 厚さ4μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Comparative Example 5 The following layers were formed on a 4 μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 カルナバワックス(融点=82℃)を100℃恒温層中で
ワイヤーバーにより厚さ1.5μmに塗布して、離型層を
設けた。Release Layer Carnauba wax (melting point = 82 ° C.) was applied to a thickness of 1.5 μm with a wire bar in a constant temperature layer at 100 ° C. to provide a release layer.
熱溶融性インク層 比較例2の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Hot-melt ink layer The hot-melt ink liquid of Comparative Example 2 was applied on the release layer with a wire bar so that the hot-melt ink layer had a thickness of 3 μm, to obtain a thermal transfer ink sheet.
比較例6 厚さ4μmのポリエステルフィルム上に下記の各層を
形成し、熱転写記録媒体であるインクシートを形成し
た。Comparative Example 6 The following layers were formed on a 4 μm-thick polyester film to form an ink sheet as a thermal transfer recording medium.
離型層 酸化パラフィンワックス(融点=85℃)を100℃恒温
槽中でワイヤーバーにより厚さ1.5μmに塗布して、離
型層を設けた。Release Layer Oxidized paraffin wax (melting point = 85 ° C.) was applied with a wire bar to a thickness of 1.5 μm in a thermostat at 100 ° C. to form a release layer.
熱溶融性インク層 比較例3の熱溶融性インク液を、上記離型層上に熱溶
融性インク層が厚さ3μmとなるようにワイヤーバーに
て塗布して、熱転写インクシートとした。Heat-meltable ink layer The heat-meltable ink liquid of Comparative Example 3 was applied onto the release layer with a wire bar so that the heat-meltable ink layer had a thickness of 3 μm, to obtain a thermal transfer ink sheet.
上記実施例1〜8及び比較例1〜6で得られたインク
シートを用いて日本電気(株)製シリアルプリンターPC
−PR150Vにより印字し、印字濃度、記録感度、転写画像
の解像度を試験した。A serial printer PC manufactured by NEC Corporation using the ink sheets obtained in Examples 1 to 8 and Comparative Examples 1 to 6.
Printing was performed using -PR150V, and the print density, recording sensitivity, and resolution of the transferred image were tested.
その結果を表−1に示す。 Table 1 shows the results.
上記表−1に示した記録特性の評価方法は下記の通り
である。 The evaluation method of the recording characteristics shown in Table 1 above is as follows.
印字濃度:連続した印字をマクベス反射濃度計で測定し
た。Printing density: Continuous printing was measured with a Macbeth reflection densitometer.
被転写紙の表面性は、熱転写用紙がベック平滑度200
秒、ボンド紙が15秒である。Thermal transfer paper has a Beck smoothness of 200
Seconds, bond paper is 15 seconds.
記録感度:サーマルヘッド発熱素子サイズ(1/12mm=83
μm)に相当する転写ドットを熱転写用紙に印字濃度1.
2で記録するために要するサーマルヘッド印加エネルギ
ー(E)により評価した。Recording sensitivity: Thermal head heating element size (1 / 12mm = 83
μm) on a thermal transfer paper with a print density of 1.
The evaluation was made based on the thermal head applied energy (E) required for recording in 2.
評価基準 ○;E<0.08mJ/dot △;0.08mJ/dot≦E≦0.11mJ/dot ×;0.11mJ/dot<E、あるいは印字濃度1.2に達しない 解像度 :漢字の判読性(特に画数の多いもの)で評価
した。Evaluation criteria ○; E <0.08mJ / dot △; 0.08mJ / dot ≦ E ≦ 0.11mJ / dot ×; 0.11mJ / dot <E or print density does not reach 1.2 Resolution: legibility of kanji (especially with many strokes) ).
評価基準 ○;良好に判読できる △;普通 ×;判読困難 インクシートの安定性:温度45℃、湿度85%の条件下に
24時間保存した後、印字評価を行なって、環境テスト前
と評価した。Evaluation criteria ○: Good readability △: Normal ×: Hard to read Ink sheet stability: Under conditions of temperature 45 ° C and humidity 85%
After storing for 24 hours, printing evaluation was performed and evaluated before the environmental test.
表−1に示した各熱溶融性インクの評価結果につい
て、以下に補足説明する。The evaluation results of each hot-melt ink shown in Table 1 will be supplementarily described below.
ワックスをバインダー材とした比較例1は、熱転写専
用紙では比較的良好な印字結果を示すが、被転写紙の表
面に凹凸があるボンド紙では印字濃度が低く、また画数
の多い漢字では文字のつぶれを生じて、判読が困難な場
合がある。これに対して、実施例1では非常に良好な印
字結果を示し、ボンド紙でも高い印字濃度を示した。Comparative Example 1 using wax as a binder material shows relatively good printing results on paper exclusively for thermal transfer, but has a low printing density on bond paper having irregularities on the surface of the paper to be transferred, and has a lower character density for kanji with many strokes. It may be crushed and difficult to read. On the other hand, in Example 1, a very good print result was shown, and a high print density was shown even with the bond paper.
エポキシ樹脂をバインダー材とした比較例2は、本発
明の熱転写記録媒体に近い性能を有するが、バインダー
樹脂中に反応活性なエポキシ基を有するため、インクシ
ートの保存安定性に欠ける。Comparative Example 2 using an epoxy resin as a binder material has performance close to that of the thermal transfer recording medium of the present invention, but lacks the storage stability of the ink sheet because it has a reactive epoxy group in the binder resin.
比較例4〜6には、基材と熱溶融性インク層の間にワ
ックス類を主成分とした離型層を設けた場合の効果を示
した。これら比較例1〜3に比べて印字品質は向上する
が、実施例には劣る。Comparative Examples 4 to 6 show the effect when a release layer containing wax as a main component was provided between the base material and the hot-melt ink layer. Although the print quality is improved as compared with these comparative examples 1 to 3, it is inferior to the examples.
実施例5〜8も基材と熱溶融性インク層の間にワック
ス類を主成分とした離型層を設けた場合の効果を示し
た。これらは実施例1〜4に比べ印字品質は更に向上し
た。Examples 5 to 8 also showed the effect when a release layer containing wax as a main component was provided between the base material and the hot-melt ink layer. In these, the print quality was further improved as compared with Examples 1 to 4.
以上説明したように、本発明によれば被転写紙の表面
の凹凸の影響を受けることが少なく、高画質な転写画像
を与えることができる熱転写記録媒体が得られる。更に
は本発明の熱転写記録媒体の基材と熱溶融性インク層の
間に、特にワックス類を主成分とした離型層を設けるこ
とにより更に高感度な転写画像を与えることができる熱
転写記録媒体が得られる。As described above, according to the present invention, it is possible to obtain a thermal transfer recording medium which is less affected by the unevenness of the surface of the paper to be transferred and can provide a high-quality transferred image. Furthermore, a thermal transfer recording medium capable of giving a transfer image with higher sensitivity by providing a release layer containing wax as a main component, particularly between the base material of the thermal transfer recording medium of the present invention and the heat-fusible ink layer. Is obtained.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 柴野 博史 栃木県芳賀郡市貝町大字赤羽2606番地 花王株式会社情報科学研究所内 (56)参考文献 特開 昭62−152795(JP,A) 特開 平2−276684(JP,A) (58)調査した分野(Int.Cl.6,DB名) B41M 5/38 - 5/40 ────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hiroshi Shibano 2606 Akabane, Kaigamachi, Haga-gun, Tochigi Pref. Kao Corporation Information Science Laboratory (56) References JP-A-62-152795 (JP, A) JP-A Heihei 2-276684 (JP, A) (58) Field surveyed (Int. Cl. 6 , DB name) B41M 5/38-5/40
Claims (2)
転写記録媒体において、熱溶融性インクが、ビスフェノ
ール骨格を有し、かつ分子末端に水酸基を有するポリエ
ーテル樹脂と着色剤を主成分として含有することを特徴
とする熱転写記録媒体。1. A thermal transfer recording medium comprising a base material coated with a heat-meltable ink, wherein the heat-meltable ink mainly comprises a polyether resin having a bisphenol skeleton and having a hydroxyl group at a molecular terminal, and a coloring agent. A thermal transfer recording medium characterized by containing as a component.
有する請求項1記載の熱転写記録媒体。2. The thermal transfer recording medium according to claim 1, further comprising a release layer between the substrate and the heat-fusible ink layer.
Priority Applications (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4839390A JP2928313B2 (en) | 1990-02-28 | 1990-02-28 | Thermal transfer recording medium |
| US07/658,291 US5178930A (en) | 1990-02-28 | 1991-02-20 | Thermal transfer recording medium |
| EP19910102939 EP0444641B1 (en) | 1990-02-28 | 1991-02-27 | Thermal transfer recording medium |
| DE69101990T DE69101990T2 (en) | 1990-02-28 | 1991-02-27 | Heat sensitive transfer recording material. |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP4839390A JP2928313B2 (en) | 1990-02-28 | 1990-02-28 | Thermal transfer recording medium |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH03248887A JPH03248887A (en) | 1991-11-06 |
| JP2928313B2 true JP2928313B2 (en) | 1999-08-03 |
Family
ID=12802053
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP4839390A Expired - Fee Related JP2928313B2 (en) | 1990-02-28 | 1990-02-28 | Thermal transfer recording medium |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2928313B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2961712B2 (en) * | 1994-06-10 | 1999-10-12 | フジコピアン株式会社 | Thermal transfer recording medium |
-
1990
- 1990-02-28 JP JP4839390A patent/JP2928313B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH03248887A (en) | 1991-11-06 |
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